Artificial soil composition and a method of growing vegetation on a sloped surface

ABSTRACT

An artificial soil composition and a method of growing vegetation on a sloped surface, especially a cut rock surface are disclosed. The artificial soil composition includes peat, granular soil, sewage sediment formed by the treatment of urban waste for example and pulp sludge formed by the de-watering of fibrous material and is a byproduct of the manufacture of paper from wood pulp. The artificial soil composition is applied over a meshing which is secured over a sloped cut rock surface. Plants are grown in the layer of artificial soil. Experimentally, the artificial soil is shown to have an increased adhesion to the inclined surface compared to natural soil, promotes plant growth and retains water to a greater extent than natural soil but does not cause an environmental hazard resulting from the leaching of compounds in the run-off water. 
     The preferred concentrations of the constituents by weight are: peat (10-30%) granular soil (10-30%) sewage sediment (40-60%) and pulp sludge (25-44%).

FIELD OF THE INVENTION

This invention relates to an artificial soil composition and a method ofgrowing vegetation on a sloped surface, and in particular on a surfaceof cut rock.

BACKGROUND OF THE INVENTION

On the surface of a slope of cut earth or rock where the environment forgrowing vegetation is poor, applying soil of a suitable thickness ontothe slope will improve the ability of vegetation to be grown thereon.For landscaping a sloped rock area, latticed block has generally beenused. Soil fills the compartments of the latticed block and then lawn isplanted in the soil. This conventional method can only be used on asloped surface having a small incline and is generally not suitable foruse on a steep slope having a particularly irregular surface of cutrock. Also, transportation and installation of the latticed block to thesloped surface is very difficult. After installation, the latticed blockmay slide down under gravity.

Installation of a wire mesh with a soil layer over the cut rock surfacehas also been tried. However the moisture retaining capacity of the soilis very limited and therefore the soil layer generally must be greaterthan 30 cm to retain moisture therein. Accordingly, a large amount ofsoil is required. Heavy equipment for high pressure spraying . . . isalso required. After application of the layer of soil, the soil has atendency to erode as a result of insufficient adhesion between thesurface of the cut rock and the soil.

SUMMARY OF THE INVENTION

This invention has been designed to overcome the problems describedabove. The artificial soil composition of the invention efficientlycovers the rough surface of the cut rock and only a relatively thinlayer of the artificial soil is required which can be applied withmoderately sized construction equipment. The artificial soil of theinvention has improved adhesion to the surface of cut rock andaccordingly undesirable erosion of the soil after installation can beprevented.

The artificial soil composition includes; a) peat, b) sewage sediment,c) pulp sludge, and d) granular soil. Other material such as microbesmay be added to the composition as desired.

The invention also relates to a method of growing vegetation on a slopedsurface comprising the steps of a) affixing a meshing over the slopedsurface, b) applying the artificial soil as defined in the precedingparagraph over the mesh so as to form a layer of artificial soil and c)planting vegetation in the layer of artificial soil.

BRIEF DESCRIPTION OF THE DRAWINGS

The preferred form of the invention will now be described with referenceto

FIG. 1, which is a sectional side elevation of a sloped surface coveredby the artificial soil composition according to one preferred embodimentof the invention;

FIGS. 2 and 3 which respectively show exploded views of details A and Bof FIG. 1; and

FIGS. 4a and 4b which are top elevations of the meshing for use on theslope of FIG. 2 and FIG. 3 respectively.

DETAILED DESCRIPTION

In a first aspect the invention relates to an artificial soilcomposition comprising a) peat, b) sewage sediment, c) pulp sludge andd) granular soil.

"Peat" can be derived from a peat bog or swamp for example and consistsof water saturated, partially decayed plant matter which providesorganic matter, nitrogen and phosphorus compounds e.t.c. in theartificial soil.

The "sewage sediment" referred to herein is the precipitate formed inthe neutralization process during sewage treatment and containspredominantly organic matter. The sewage sediment can be obtained fromurban sewage treatment plants for example. The de-watered sediment is asuitable environment for growth of microbial organisms. Desirably, thechemical makeup of the sewage sediment is: organic material about 42% to68% by weight; total nitrogen about 1-5% by weight; phosphorous (i.e. inthe form of P₂ O₅) about 1-7% by weight; potassium (i.e. in the form ofK₂ O) about 0.5-2% by weight; calcium (i.e. in the form of CaO) about0.5-7% by weight and magnesium (i.e. in the form MgO) about 1-6% byweight. Other material such as inorganic material (e.g. sand) may bepresent in a range of 40-50% by weight. The sewage sediment may have apH of between about 5.8 to 7.1. In an analysis report published by theAgricultural Technology Institute of the Republic of Korea the averagechemical makeup of sewage sediment was found to be; organic material(45.8%), total nitrogen (1.42%), phosphoric acid (1.15%), potassium(0.28%), calcium (6.21%), magnesium (1.12%), inorganic material e.g.sand, etc. (44.02%). It is envisaged that the sewage sediment used tomake the artificial soil composition could have a similar chemicalmakeup to this. However, the concentration of the constituents of thesewage sediment can obviously be varied within the scope of theinvention. The sewage sediment provides nutrients (e.g. nitrogen andphosphorous) for stimulating growth of microbes existing therein such asfilamentous fungi and other bacteria. By utilizing this industrialwaste, the invention provides a solution to the environmental problemassociated with disposal of these wastes.

The "pulp sludge" referred to herein is produced by de-watering fibrousmaterial and is a byproduct of the manufacture of paper from wood pulpfor example. However, other sludge products including cellulose andlignin are also contemplated with the scope of the invention. This pulpsludge should be decomposed in the presence of suitable microorganismsbefore it is included in the artificial soil composition. Decayed pulpsludge generally has the same constituents and properties as peat andprovides a source of carbon as well as microbes. Pulp sludge includeslignin and hemicellulose which are relatively slow to decompose andhence increase the viscosity and adhesiveness of the artificial soil.Desirably, the pulp sludge has a pH range between about 5.7 to 8.5 andmay have a chemical makeup of: organic matter about 12-49% by weight;total nitrogen about 0.1 to 0.7% by weight; phosphorous (i.e. in theform P₂ O₅)about 0.05-3% by weight; potassium (i.e. in the form K₂ O)about 0.1 to 0.4% by weight; calcium (i.e. in the form CaO) about 2.1 to2.4% by weight; magnesium (i.e. in the form MgO) about 3 to 5% byweight; cellulose about 5 to 8% by weight; and lignin about 15 to 20% byweight. Utilization of pulp sludge reduces the problems associated withthe disposal of environmental wastes from the pulp and paper industry.

The average granule diameter of each of the peat, sewage sediment andpulp sludge components may be between about 0.02 mm (i.e. clay) andabout 2 mm (i.e. sand). Preferably, less than 20% of the granules of thecomposition have diameters of 0.02 mm or less. While diameters ofgreater than 20 mm are acceptable, it may be desirable to crush theselarger particles.

The "granular soil" comprises coarse grained soil including decomposedgranite, volcanic ash or coal ash, or a combination of these. Thegranular soil may be derived from mountain or earth excavation sites andthe particles of the granular soil may have diameters which range fromabout 0.02 mm to 20 mm. Desirably, 5% or less by volume of the particleshave a diameter of 20 mm or greater and hence it may be desirable tocrush the larger particles so that the composition is able to besprayed.

The ratio of each of the components of the composition can be readilyvaried depending on the desired consistency of the artificial soil.However, the recommended concentration of each of the components is asfollows:

a) peat between about 10 to 30% by weight;

b) granular soil between about 10 to 30% by weight;

c) sewage sediment between about 40 to 60% by weight, and

d) pulp sludge between about 25 to 45% by weight.

Microbial organisms may be present in the constituents (e.g. in thesewage sediment or the pulp sludge) or may be added to the compositionas desired. Microbes that can be added to the composition includeAspergilli fungi, Mucor fungi, Bacillus bacteria or Pseudomonas bacteriafor example.

The method of growing vegetation on a sloped surface shall now bedescribed in more detail with reference to FIGS. 1 to 3. FIG. 1 shows asloped surface with a section 1 which shows a soft rock or weatheredrock base having a slope of under 1:0.5 for example and a steepersection 2 having a hard rock base with a slope of under 1:0.3 forexample. A meshing 3 is positioned on the sloped surface 4 of soft rock,weathered rock or hard rock. The meshing 3 can be wire mesh for exampleor for gentle slopes may be polyethylene net. With reference to FIGS. 4aand 4b, the meshing 3 employed in the preferred embodiment of theinvention is formed from PVC coated wire forming a frame work 8 whichcomprises a plurality of squares (see 4b) or rectangles (see 4a) onwhich a finer cross hatched meshing 9 (also formed from PVC coated wire)is positioned or to which the meshing 9 is secured. Each square at theframe work 8 may have vertical and horizontal sides of 150 cm by 150 cmas shown in FIG. 4b for steeper slopes or the rectangles of FIG. 4a mayhave horizontal sides of 150 cm and vertical sides of 300 cm for gentlerslopes. Of course, many different embodiments of the meshing arecontemplated. To secure the meshing to the sloped surface a plurality ofanchor members 5 each having a hook-shaped end 6 may be driven into thesloped surface to a depth of about 20 to 40 cm with the hook end 6securing the meshing 3. In the embodiment of FIGS. 4a and 4b, anchors 5are provided at each intersection between the horizontal and verticalwires of the frame work 8. Extra securing pins may be used to secure thefiner meshing 9 as required. As shown in FIG. 1, it may be necessary touse more anchor members 5 where the slope is fairly steep (see section2). The artificial soil composition described herein is then appliedover the secured meshing 3 to form a layer 7 of artificial soil.Conveniently, the artificial soil composition may be sprayed onto themeshing using a high pressure spraying device so that a layer ofartificial soil of about 5-20 cm in depth is achieved. In the embodimentshown, the steep area of section 2 has a layer 7 of artificial soil ofabout 15 cm while the gentler slope of section 1 has a layer 7 ofartificial soil of about 10 cm. Vegetation 10 is then able to be grownin the layer of artificial soil using techniques known in the art. In adesirable embodiment of the invention, the artificial soil and the seedsfor growing vegetation are mixed together and then the soil/seed mixtureis sprayed onto the meshing 3.

A non-limiting example of a composition which was made according to theinvention claimed herein follows:

EXAMPLE 1 Preparation of an Artificial Soil Composition and Suitabilitythereof for Supporting Plant Growth

An artificial soil composition was produced by mixing a concentration ofpeat from between 10 to 30% by weight, granular soil from 10 to 30% byweight, sewage sediment from 40 to 60% by weight and pulp sludge from 25to 45% by weight. After addition of water, grass seeds and weed seeds tothe artificial soil, the composition was mixed and sprayed onto a wiremesh which had been fixed in place over the inclined surface of cut rockusing an anchor. The thickness of the artificial soil layer applied tothe mesh ranged from about 5 to 20 cm. Even after exposure to heavy rainthe artificial soil layer was stable and did not erode. The artificialsoil was able to retain enough moisture so that plants grown thereinsurvived for the period of the study (i.e. three months). The pH of theartificial soil composition was 7.2 and its density was 1,000 to 1,050g/l which was approximately 0.57 to 0.6 times the density of naturalsoil (i.e. 1,750 g/l). Because of the reduced weight of the artificialsoil, use of a moderately sized applicator machine and easytransportation of the artificial soil were possible. The high porosityof the artificial soil (42 to 44%) which was 1.07 to 1.12 times higherthan natural soil (39%) and 1 to 1.05 times higher than granular soil(42%) resulted in early sprouting of seeds and rapid plant growth.

In order to measure the moisture retaining capacity of the artificialsoil the following experiment was performed.

EXAMPLE 2 Test of Moisture Retaining Capacity--Natural Soil andArtificial Soil Composition

Two roofing slates (sized 50 cm×50 cm) were installed at an inclinedangle of 40° to horizontal in a greenhouse. Natural soil was providedover a wire mesh in one slate and the artificial soil composition ofExample 1 was provided over the wire mesh of the other slate. The soillayers were each about 10 cm thick. Ten grams of perennial rye-grassseeds which had been soaked for 24 hours in water, were planted and oneliter of water was poured evenly over each bed. No further water wasadded thereafter. After four days, seeds had begun to sprout from eachbed of soil. The grass on the bed of the natural soil started todehydrate from the seventh day onwards and died on the 12th day afterplanting. However, the grass on the bed of artificial soil started todehydrate only after the 120th day and died on the 140th day afterplanting. Moisture retaining capacity of the artificial soil compositionwas accordingly 28 times greater than that of natural soil.

In order to assess the environmental impact of the artificial soil, thefollowing experiment was performed:

EXAMPLE 3 Environmental Impact of Artificial Soil Composition

Run-off water taken from the base of a sloped area covered by theartificial soil of Example 1 and planted with vegetation was collectedafter the first rain fall and the BOD (Biological Oxygen Demand)suspended solids, oil and grease concentration, settleable solidsconcentration, total dissolved solids concentration, chloride andsulfate concentrations, total nitrogen and nitrates and nitriteconcentrations as well as the pH of the water were measured. The resultsof the tests are given in the following table. The effluent limits,which must not be exceeded to avoid pollution of the environment, areshown in the right hand column.

                  TABLE 1                                                         ______________________________________                                        Environment Impact of Artificial Soil                                                         OUR TEST   Effluent Limits                                    Constituent     RESULT     Discharge to River                                 ______________________________________                                        BOD, mg/l       16.4                                                          7-day Average              30                                                 30-day Average             20                                                 Suspended Solids, mg/l                                                                        14                                                            7-day Average              40                                                 30-day Average             15                                                 Oil and Grease, mg/l                                                                          2.5                                                           30-day Average             10                                                 Maximum                    15                                                 Settleable Solids, mg/l                                                                        0.07                                                         30-day Average             0.1                                                Maximum                    0.3                                                Total Dissolved solids, mg/l                                                                  64         950                                                Maximum                                                                       Maximum Chloride, mg/l                                                                        30         150                                                Maximum sulfate, mg/l                                                                         1.2        300                                                Total Nitrogen, mg/l                                                                          0.5                                                           30-day Average                                                                Nitrates and Nitrites, mg/l                                                                   1.7         8                                                 Maximum                                                                       pH              6.8        6.0-9.0                                            ______________________________________                                    

Accordingly, it can be seen that the concentration of the constituentsin the run off water did not exceed the effluent limits and thereforethe environmental impact of the artificial is minimal.

The concentration of various components in the artificial soil andnatural soil were measured and these are shown in the following table:

                  TABLE 2                                                         ______________________________________                                        Comparison of Artificial Soil Composition and Natural Soil                                     Artificial Soil                                              Component        (Example 1) Natural Soil                                     ______________________________________                                        Organic Material, %                                                                            26.2        1.09                                             Total Nitrogen, %                                                                              2.98        0.02                                             Phosphoric Acid (P.sub.2 O.sub.5), PPM                                                         310         157.8                                            Potassium, K(ME/OOG)                                                                           2.45        4.48                                             Porosity, %      43          39                                               Acidity, pH      7.2         5.1                                              ______________________________________                                    

Thus it can be seen that the artificial soil composition of theinvention is suitable for application to a sloped surface and inparticular a cut rock slope and has a reduced tendency to erodetherefrom. There is synergism between each of the components so that theartificial soil is well adapted for growth of vegetation retainsmoisture well and adheres to the rock surface well but is not associatedwith the risk of environmental pollution. The artificial soilcomposition of the invention has a desirable concentration of totalnitrogen, phosphorus, calcium and other organic materials so that itprovides a good environment for vegetative growth upon the applicationof a relatively thin layer of the artificial soil (between about 5 to 20cm) onto a sloped surface.

What is claimed is:
 1. An artificial soil composition for supportingvegetative growth which is suitable for application to a sloped surfacecomprising:(a) peat in a concentration range of between about 10% to 30%by weight; (b) granular soil in a concentration range of between about10% to 30% by weight; (c) a sewage sediment in a concentration range ofbetween about 40% to 60% by weight; (d) a pulp sludge in a concentrationrange of about 25% to 45% by weight; wherein the pulp sludge has achemical composition comprising about 12% to 49% by weight organicmatter; about 0.1% to 0.7% by weight total nitrogen; about 0.05% to 3%by weight phosphorous; about 0.1% to 0.4% by weight potassium; about2.1% to 2.4% by weight calcium; about 3% to 5% by weight cellulose; andabout 15% to 20% by weight lignin.
 2. The artificial soil composition ofclaim 1 wherein the pH is 7.2 and the density is 1000 to 1050 g/l. 3.The artificial soil composition of claim 1 further comprising microbialorganisms selected from the group consisting of Aspergilli or Mucorfungi and Bacillus or Pseudomonas bacteria.
 4. The artificial soilcomposition of claim 1 wherein the granular soil composition is selectedfrom the group consisting of decomposed granite, volcanic ash, coal ashand combination thereof.
 5. A method of preparing an artificial soilcomposition for growing vegetation on a sloped surface comprising:(a)mixing peat in a concentration range of between about 10% to 30% byweight with granular soil in a concentration range of between about 10to 30% by weight; a sewage sediment in a concentration range of betweenabout 40 to 60% by weight; and a pulp sludge in a concentration range ofabout 25% to 45% by weight; wherein the pulp sludge has a chemicalcomposition comprising about 12% to 49% by weight organic matter; about0.1% to 0.7% by weight total nitrogen; about 0.05% to 3% by weightphosphorous; about 0.1% to 0.4% by weight potassium; about 2.1% to 2.4%by weight calcium; about 3% to 5% by weight cellulose; and about 15% to20% by weight lignin; (b) adjusting the pH of the composition to a rangeof about 6.8 to 7.2; (c) mixing said composition to obtain a density of1,000 to 1,050 g/l.
 6. The method according to claim 5 furthercomprising the addition of microbial microorganisms selected from thegroup consisting of Aspergilli or Mucor fungi and Bacillus orPseudomonas bacteria.
 7. An artificial soil composition for growingvegetation on a sloped surface comprising:a) peat in a concentrationrange of between about 10% to 30% by weight; b) granular soil in aconcentration range of between about 10 to 30% by weight; c) sewagesediment in a concentration range of between about 40 to 60% by weight;and d) pulp sludge in a concentration range of about 25% to 45% byweight; wherein the pulp sludge has a chemical composition comprisingabout 12% to 49% by weight organic matter; about 0.1% to 0.7% by weighttotal nitrogen; about 0.05% to 3% by weight phosphorous; about 0.1% to0.4% by weight potassium; about 2.1% to 2.4% by weight calcium; about 3%to 5% by weight cellulose; and about 15% to 20% by weight lignin; saidpeat, sewage sediment and pulp sludge each having an average diameter ofbetween about 0.02 to about 2 mm and granular soil having a diameter ofabout 0.02 to 20 mm.
 8. The artificial soil composition according toclaim 7 wherein the sewage sediment comprises: (a) about 42 to 68% byweight organic material; (b) about 1 to 7% by weight phosphorous; (c)about 0.5 to 2% by weight potassium; (d) about 0.5 to 7% by weightcalcium; (e) about 1 to 6% by weight magnesium; and (f) about 40 to 50%by weight inorganic material.